Rotary shelf mechanism

ABSTRACT

A rotary shelf for use within a cabinet which has first and second mounting brackets spaced apart and opposing each other attached to the bottom and to the top of the inside of the cabinet. The mechanism includes integrally formed shelves, a shelf and post securing mechanism wherein a notched member affixed to a mounting bracket cooperatively receives an engaging member to secure the post and shelves in a stationary position. The mechanism also includes a shelf and cabinet opening adjustment mechanism to permit threadable adjustment of the post and carried shelves with respect to the cabinet opening.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to lazy susan devices and moreparticularly to a rotary shelf mechanism for use within a cabinet whosepost and shelves can be locked positively in a storing position, whosepost and shelves can be adjusted with respect to the cabinet opening,and whose shelves are integrally formed.

2. Description of the Prior Art

It has been common practice to provide in corner kitchen cabinets,shelves of a rotatable or lazy susan type. This shelving has becomepopular because without it, considerable cabinet space in the corner,either above or below the kitchen counter is wasted due to theinaccessibility of items well back in the corner. A considerable numberof rotatable corner shelf units are based on the structure wherein atubular element forms a vertical rotatable axis attached to the shelves.Since the door formed within the structure of the shelving must alignwith the cabinet opening for an attractive and professional fit, anumber of methods have been employed to secure that appearance, oftenrequiring adjustment means to bring the structure back into properalignment in the event it becomes altered for whatever reason.

Various adjustment devices have been provided to align the shelfmechanism. See, for example, U.S. Pat. Nos. 3,127,994; 4,433,885;4,486,107 and 4,688,686.

Unfortunately, correction of this alignment problem within such priorart assemblies have not been fully successful to enable the componentswithin the cabinet to conform to the opening, and adjustment frequentlyrequires partial disassembly of the shelf assembly which necessitatesremoval of all or most of the stored goods therein. These adjustmentsand efforts are troublesome, time-consuming and often laborious.

Moreover, prior art means for adjusting the shelf assembly require theuse of tools, and often the prior art adjusting mechanism is not easilyaccessible for adjustment.

Finally, all prior shelving formed from plastic-like materials has beenmade up of numerous components assembled together to fit in a propermanner about the shaft which are joined together by pins or screws in amanner to assure that the shelf is securely attached to the post andmoves uniformly when the post is rotated. Shelves formed of numerouscomponents are expensive to assemble and often do not fit properlybecause of the many components that are joined together to form thecompleted shelf.

Thus, there is still a need for smooth and quiet shelf movement andlocking action, adjustments to align the shelves and supporting postswith the cabinet opening, and improvements in the complicated structureof the lazy susan shelving. It is to these needs that the presentinvention is directed.

SUMMARY OF THE INVENTION

The present invention is an improvement in lazy susan devices and, moreparticularly, in a rotary shelf mechanism for use within a cabinet whichhas first and second mounting brackets spaced apart and opposing eachother, shelf and post securement means which includes a notched plateaffixed to a mounting bracket and post insert means having a bracketengaging element cooperatively received by the mounting bracket plateand operable with a noise absorbing member to quietly secure the post ina stationary position. The shelf and opening adjustment means includes amounting bracket adjustment plate carrying a threadable insertcooperatively receiving the threaded adjusting member to cause theadjusting plate, when the adjusting member is rotated, to move withrespect to the mounting bracket to adjust the post and shelves withrespect to the opening. Of significant importance is the provision of anintegrally formed (molded one piece) shelf, thus avoiding the problemsassociated with assembled shelf components that are selectivelypositioned on the length of the post to received goods for storage or tocollapse and provide a more efficient shipping package.

From the summary of the invention described, it will be apparent that aprimary object of the present invention is to provide a lazy susanassembly having a rotary shelf mechanism for use within a kitchencabinet that utilizes integrally formed shelves to significantly reducethe cost of shelving previously used.

Another object of the present invention is to provide a rotary shelfmechanism for use within the cabinet that includes a shelf and postsecuring means to provide an efficient, smooth and silent engagementwith a spring biased member and a mounting bracket plate notch to securethe post and sleeves in a stationary position.

A further object of the present invention is to provide a shelf andopening adjustment means that will enable a single threaded engagementmember to align the post and shelves with the cabinet opening.

Yet still another object of the present invention is to provide analternative shelf and post securing means wherein a plate engagementelement has a recess therein and an upstanding plate and cooperativeflexing member engage the recess and secure the post and shelves in astationary position.

Yet still another further object of the present invention is to providea noise absorbing member operable with the upstanding plate and flexingmember to reduce wear and noise upon movement of the post and shelves.

Thus, there has been outlined the more important features of theinvention in order that the detailed description that follows may bebetter understood and in order that the present contribution to the artmay be better appreciated. There are, of course, additional features ofthe invention that will be described hereinafter which will form thesubject matter of the claims appended hereto. In this respect, beforeexplaining at least one embodiment of the invention in detail, it is tobe understood that the invention is not limited in its application tothe arrangement of the components set forth in the following descriptionor illustrated in the drawings. The invention is capable of otherembodiments and of being practiced and carried out in various ways.

It is also to be understood that the phraseology and terminologyemployed herein are for the purpose of description and should not beregarded as limiting. As such, those skilled in the art will appreciatethat the concept upon which this disclosure is based may readily beutilized as a basis for designing other structures, methods, systems andin carrying out the several purposes of the present invention. It isimportant that the claims be regarded as including such equivalentmethods and products resulting therefrom so long as they do not departfrom the spirit and scope of the present invention. The application isneither intended to define the invention which is measured by its claimsnor to limit its scope in any way.

For a better understanding of the invention, its operating advantages,and the specific results obtained by its use, reference should be madeto the following detailed description taken in conjunction with theaccompanying drawings wherein like characters of reference designatelike parts throughout the several views.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective, fragmentary and partially exploded view of thetubular post and its carried components of the lazy susan systemcomprising the present inventive concept;

FIG. 2 is a schematic and perspective view of the housing within whichthe tubular post and its carried components reside;

FIG. 3 is a schematic plan view of the housing shown in FIG. 2illustrating the cooperative relationship between tubular post, carriedshelves and the housing opening;

FIG. 4 is a side elevational, schematic and sectional view of aplurality of shelves collapsed upon themselves for compactness when theyare to be shipped;

FIG. 5 is a fragmentary, enlarged and perspective view of the bottom ofone of the shelves and its attachment to the tubular post;

FIG. 5(a) is an enlarged, fragmentary and bottom plan view of theintegral shelf support member of the present invention ;

FIG. 5(b) is a side elevational, enlarged and fragmentary view of thesupporting hub carrying the metal plate engaging a hub carriedprotrusion;

FIG. 5(c) is an enlarged, fragmentary and perspective view of theunderneath side of a shelf engaging and being supported by the post;

FIG. 5(d) is an enlarged plan view of the plate shown in FIG. 5(b);

FIG. 5(e) is an enlarged fragmentary and perspective view of the plateshown in FIG. 5(d) secured to a shelf and the post;

FIG. 6 is a plan, fragmentary and enlarged view of the first mountingbracket;

FIG. 7 is a end elevational and fragmentary view of the first mountingbracket of FIG. 6;

FIG. 8 is a bottom view of the bracket engaging element carrying aspring biased engaging member;

FIG. 9 is a side elevational view of the post insert means shown in FIG.8;

FIG. 10 is a plan, enlarged and fragmentary view of the shelf andopening adjustment mechanism;

FIG. 11 is a front elevational and fragmentary view of the mechanismshown in FIG. 10;

FIG. 12 is a plan, enlarged and fragmentary view of an alternativeembodiment of the shelf and post securing means;

FIG. 13 is a front elevational and fragmentary view of the mechanismshown in FIG. 12; and

FIG. 14 is a plan, enlarged and fragmentary view of yet anotherembodiment of the shelf and post securing means.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Referring now to the drawings and particularly to FIGS. 2 and 3, ahousing shown generally as 20 forming the ninety degree connectorbetween two runs of kitchen cabinets has an upper end 22, a lower end 24and an opening 26. Upper end 22 is closed by cabinet top 28, and lowerend 24 is closed by cabinet bottom 30. Shelves 32 in the cabinetconfiguration have a notched 90 degree insert which forms the door 34for opening 26. Shelves 32 are affixed to a tubular post 36.

Referring now to FIG. 1, tubular post 36 carries on one end a firstmounting bracket 38 and on the other end a second mounting bracket 40.First mounting bracket 38 is secured to cabinet bottom 30 and secondmounting bracket 40 is secured to cabinet top 28. Shelves 32 arereleasably secured to tubular post 36 in a manner to be describedsubsequently. Shelves 32 will be secured to post 36 so that when door 34is opened, shelves 32 and post 36 will rotate to provide opening 26.

A shelf and post securing mechanism is shown generally as 42 andincludes a plate engagement element 46 with a spring biased engagingmember 49 (FIGS. 1 and 8) cooperatively received by notch 48 of verticalmember 51 to secure post 36 and shelves 32 in a stationary position whenopening 26 is closed by door 34. A small resilient member 51a extendsthrough an opening 51b in engagement element 46 to cushion theengagement of member 49 within notch 48 and eliminate noise.

Another embodiment of a shelf and post securing mechanism is showngenerally as 50 in FIGS. 10 and 11 where it is attached to the firstmounting bracket adjustment plate 52. Mechanism 52 includes anupstanding backing element 59a and a resilient locking element 59bconnected to backing element 59a and formed of resilient material suchas plastic or rubber so that it will yield and operate silently withplate engaging element 46. To ensure sufficient resiliency in response,a spring 59c is positioned between backing element 59a and lockingelement 59b in the manner best shown in FIG. 10. A post 59d is affixedto backing element 59a and within recesses 59e and 59f to ensure thatspring 59c stays in position.

Yet another embodiment of a shelf and post securing mechanism is showngenerally as 70 in FIGS. 12, 13 and 14. Plate engagement element 46 hasa notch 74 which cooperatively communicates with a flexing member 77affixed to an upstanding backing element 78 whereby notch 74 and flexingmember 77 engage to secure the post and shelves in a stationaryposition.

The previous embodiment is yet still enhanced by the inclusion of anoise absorbing member 81 (FIG. 14) operable with upstanding backingelement 78 and flexing member 77 to reduce wear and noise upon movementof the post and shelves. The noise absorbing member can be made of anysuitable material such as plastic, rubber, fiberglass or others capableof absorbing noise and reducing wear. It is preferably positionedbetween upstanding backing element 78 and flexing member 77 as shown inFIG. 14.

A shelf and opening adjustment mechanism is shown generally as 50 inFIGS. 10 and 11. Mechanism 50 includes a first mounting bracketadjustment plate 52 movably secured to mounting bracket 38, a housingconnected to bracket 38, a threadable insert 56 carried within housing54, and a threaded adjusting member 58 secured by a flange 60 tomounting bracket 38 to operably engage threadable insert 56 and causeadjusting plate 52 to move with respect to mounting bracket 38 andadjust post 36 and sleeves 32 with respect to opening 26.

Shelves 32 of the present invention have been, for the first time,integrally formed to avoid the use of numerous separate pieces andcomponents to position the shelf on tubular post 36. Integrally formedshelves 32 provide significant strength, reliability and economicadvantages. Assembly costs are significantly reduced, and structuralfailures are, for the most part, eliminated. Shelves 32 are molded sothat they can be collapsed and stacked together (FIG. 4) to conservespace and resist movement and damage during shipment. When shelves 32are positioned at the desired location on tubular post 36, they aremaintained in that position by a simple pin 62 (FIG. 5) that fits withina recess (not shown) in the lower integrally formed collar 64 of shelf32.

The integrally formed shelf in another embodiment is shown withparticularity in FIG. 5(a) where a solid plastic hub, shown generally as68, has an enlarged circular support member 70 to encircle the post butis integrally formed with the other elements of the shelf such as struts72. The integral shelf has openings 74 to allow the die insert elementsto be extended therethrough and retracted therefrom.

Another embodiment of the shelf connecting structure is shown in FIGS.5(b) and 5(d) where a metal plate 76, preferably formed of stainlesssteel, is inserted over opening 74 to provide an opening 80 sufficientin size to comfortably encompass post 36. Plate 76 has a recess 82shaped to accommodate a protrusion 84 (FIG. 5(b)) on supporting hub 90therein and thereby cause shelf 32 to be at rest. A pin 88 securessupporting hub 90 to post 36 as shown.

Recess 82 cooperatively receives protrusion 84 as previously discussed.When shelf 32 needs to rotate with post 36, the insertion of a pin 92 asshown in FIG. 5(c) is sufficient to secure shelf 32 to post 36 androtate therewith form a shelf to post securing means and enable thisjoint rotation.

In the pre-molded shelf construction shown in FIG. 5(a), a singleopening 94 is provided to accommodate and cooperatively receive a pin(not shown) that extends through an opening in post 36.

While FIG. 1 shows only the use of shelf and post securing means 42 inconnection with first mounting bracket 38, the shelf and openingadjustment mechanism 50 can also be affixed to first mounting bracket 38so that both the shelf and post securing function and the shelf andopening adjustment function are incorporated within the same system.They can be used in combination or singularly as desired.

If the collapsed shelf feature is used, pin 62 can be used to anchor thecollapsed shelves in the shipping position. Once at the installationsite, pin 62 can be removed and shelves 32 can be positioned at theirnormal locations and secured with pin 62 as previously described.

The techniques involved in forming the novel combination set forth inthe present inventive concept and the components associated therewithare unlimited and are deemed readily apparent and obvious to one skilledin the art. All equivalent relationships to those illustrated in thedrawings and described in the specification are intended to beencompassed herein. Consequently, the following is considered asillustrative only of the principles of the invention. Since numerousmodifications and changes will readily occur to those skilled in theart, it is not desired to limit the invention to the exact constructionand operation shown and described. All suitable modifications andequivalents falling within the scope of the appended claims are deemedwithin the present inventive concept.

What is claimed is:
 1. An adjustable and alignable lazy susan shelfassembly comprising: a housing defining a cavity, the housing having atop, a bottom and an opening; first and second mounting brackets spacedapart and opposing each other, the first mounting bracket secured to thebottom and the second mounting bracket secured to the top; a tubularpost having first and second ends disposed at lengthwise between thefirst and second mounting brackets; shelves slideable along andreleasably secured to the tubular post; shelf and post securing meansassociated with one end of the post and one of the mounting brackets;and shelf and opening adjustment means secured to one of the mountingbrackets wherein the shelf and post securing means includes anupstanding notched plate affixed to the first mounting bracket and apost insert means extending into a post end and having a spring biasedplate engagement element cooperatively received by the plate notch, thespring biased plate engagement element and notched plate arecooperatively operable to secure the post and shelves in a stationaryposition, and the notched plate has a resilient member positioned withinthe notch to engage the spring biased engaging member.
 2. The assemblyas claimed in claim 1 wherein the shelf and opening adjustment meansincludes a first mounting bracket adjustment plate movably secured tothe first mounting bracket, a housing connected to the mounting bracketadjustment plate, a threadable insert carried within the housing, and athreaded adjusting member secured to the first mounting bracket tooperably engage the threadable element and cause the adjusting plate tomove with respect to the first mounting bracket and adjust the post andshelves with respect to the opening.
 3. The assembly as claimed in claim1 wherein the notched plate has a notched position aperture and furthercomprising a resilient member positioned within the aperture to engagethe spring biased engaging member.
 4. The assembly as claimed in claim 1wherein the shelf and post securing means include a plate engagementelement having a notch therein, an upstanding backing element secured tothe first mounting bracket, and a flexing member operable with theupstanding backing element and cooperating with the plate engagementnotch to secure selectively the post and shelves in a stationaryposition.
 5. The assembly as claimed in claim 4 wherein the shelf andpost securing means has a noise absorbing element operable with theupstanding backing element and flexing member to reduce wear and noiseupon movement of the post and shelves.
 6. The assembly as claimed inclaim 5 wherein the noise absorbing member is positioned between theupstanding plate and the flexing member.
 7. The assembly as claimed inclaim 5 wherein the noise absorbing member is plastic.
 8. The assemblyas claimed in claim 5 wherein the shelf and opening adjustment meansincludes a first mounting bracket adjustment plate moveably secured tothe first mounting bracket, a housing connected to the mounting bracketadjustment plate, a threadable insert carried within the housing, and athreaded adjusting member secured to the first mounting bracket tooperably engage the threadable element and cause the adjusting plate tomove with respect to the first mounting bracket and adjust the post andshelves with respect to the opening.
 9. The assembly as claimed in claim4 wherein the flexing member is stainless steel.
 10. The assembly asclaimed in claim 4 wherein the shelf and opening adjustment meansincludes a first mounting bracket adjustment plate moveably secured tothe first mounting bracket, a housing connected to the mounting bracketadjustment plate, a threadable insert carried within the housing, and athreaded adjusting member secured to the first mounting bracket tooperably engage the threadable element and cause the adjusting plate tomove with respect to the first mounting bracket and adjust the post andshelves with respect to the opening.
 11. The assembly as claimed inclaim 1 wherein the slideable along and releasably secured tubular postshelves includes shelf securing means for avoiding movement anddisplacement of the shelves during shipment.
 12. An adjustable lazysusan assembly comprising: a housing defining a cavity, the housinghaving a top, a bottom and an opening; first and second mountingbrackets spaced apart and opposing each other, the first mountingbracket secured to the housing bottom and the second mounting bracketsecured to the housing top; a tubular post having first and second endsdisposed lengthwise between the first and second mounting brackets;shelves slidable along and releasably securable to the tubular post atpre-selected post shelf positions; shelf and post securing meansassociated with one end of the post and one of the mounting brackets;and shelf and opening adjustment means secured to one of the mountingbrackets, the shelf and post securing means including an upstandingnotched plate affixed to the first mounting bracket and a post insertmeans extending into a post end and having a spring biased plateengagement element cooperatively received by the plate notch, the springbiased plate engagement element and notched plate being cooperativelyoperable to secure the post and shelves in a stationary position, andthe notched plate having a resilient member positioned within the notchto engage the spring biased engaging member; and shelf to post securingmeans wherein each of the shelves is of one piece construction.
 13. Theassembly as claimed in claim 12 wherein the post has a diametricaperture located at each post shelf position and the shelf to postsecuring means for each shelf is a pin inserted into the post diametricaperture securing the shelf to the post.
 14. The assembly as claimed inclaim 12 wherein the shelves are integrally formed to enable collapsingand stacking in a nested compact condition around the post to conservespace and resist movement and damage during shipment.
 15. The assemblyas claimed in claim 12 wherein the shelves are removable from the postand stackable with each other in a nested and compact shipment andstorage condition independent of the post to conserve space.